DE2535347A1 - METHOD OF MEASURING CYLINDRICAL AREAS - Google Patents

Description

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GB 34767/74 dipt ,, ing. peteh schütz

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MAHIA-THKKKKIA-STHASSE 22 P.O. BOX

The Rank Organization Limited, Killbank Tower, Millbank, London, S.V / .l. England

Method for measuring cylindrical shaped surfaces

The invention relates to a method 3UR determining the radius of cylindrical surfaces, which preferably is applied there, v / o be performed with spindle Abtastinstrumenten surfaces measurements such as with Keßvorrichtungen for measuring the roundness or surface shape - measuring devices \ ^r on the kind in which a test item rests on a table and a button moves over it, the test item and the button being mutually rotatable about a fixed reference axis.

In such measuring devices, the table can be fixed with respect to a machine bed, and the probe can be turned around the reference axis can be rotated, but it is also possible to fix the button and rotate the table about the reference axis or to be swiveled. It is known to equip the workpiece table of such a measuring device with a linearly movable one To equip the slide that can be adjusted step-by-step by means of a metered adjustment mechanism, and the displacement with respect to the reference position can then be measured. Measuring devices for measuring roundness or the surface shape, which contain such a linearly adjustable slide, which is on a workpiece table is carried, are referred to below as the measuring devices to be described here.

To measure the radius of a test object with greater accuracy

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ORIGINAL INSi-tw 1 U

To determine the ability to use comparison techniques, it is necessary to to use a reference body which has an exactly known radius under given temperature conditions. Dres is necessary because the probe of the surface measuring instrument has only a limited range of motion, and therefore the Radial position of the probe must first be preset to a known value, and this known value is then the The output signal given by the button is added, from which the actual radius of the test object is then determined. Since the probe can only perform a very limited movement, it is used to determine the radii of test objects different sizes required to have numerous different reference bodies available, which are among each other differed by a little less than the entire key range of the key.

Such roundness Keßeinrichtungen are during The fabrication is often used in ongoing monitoring when objects are created in a manufacturing process where very narrow tolerance limits must be adhered to. In such high-precision processes, the instruments have often perform long operating times with a single reference body, so that the requirement for a large number of reference bodies does not exist at all. For more general application, however, it is of considerable advantage to have a large number of reference bodies ready, and therefore a method is needed by means of which the Radial distances of the probe from the reference axis can be set in order to then determine the radius of a test object to be able »which has any size without a reference body of almost the same dimensions must be available for this. This cannot be achieved simply by having a Correspondingly subdivided! Scale on the slide for the Button is provided because the accuracy with which the determinations are to be made leaves an error of more than o, o5 now not to.

- 3 - 609809/0382 ORIGINAL

" ³ " 2B35347

The inventive method for setting the button of an instrument of the type described above on a selected radial position contains the following steps: A reference body with a cylindrical or at least placed on a partially cylindrical surface and this reference body is centered on the table, the The carriage is then adjusted so that the reference body moves a selected radial distance; the radial position of the probe is adjusted until it touches the surface of the reference body, and then the reference body or the button moves back and forth by a limited range to determine the relative angular position of the button and the reference body to be defined in relation to the pivot point of the button output signal; and finally the radial position of the probe set with the help of a reciprocal back and forth movement between the button and the reference body in order to determine the value of the button output set to a selected fourth at the pivot point.

Measuring instruments of the type described here can be adjusting devices for the carriage of known design, e.g. a measuring block, sliding blocks or micrometer heads. The adjusting screw can also be connected to an analog or digital displacement converter.

By setting the button in a certain position with respect to the reference body, it is possible to use the Radial distance to be determined on the basis of the fact that the Reference body can be centered very precisely to the reference axis. The selected distance by which the slide is moved, must then take into account the known radius of the reference body if the same curved surface of the reference body is used to use exactly the selected position for the button. The procedure can also be carried out with a closed, semi-cylindrical reference bodies are carried out, the curve surface of which is centered on the reference axis, whereby the button then hits the curved cylinder surface.

-A- 609809/0382

Lies and up to the edge of contact with the flat surface of the Reference body is performed before the setting is made so that the button with the reference body in this particular Position is brought into contact. Assuming that the center of contact is for the arc surface of the semi-cylindrical body lies in the flat surface of the body, represents the entire movement that occurs with the adjusting mechanism must be carried out to move the button from a position in contact with the flat surface of the reference body, which is on the reference axis is centered, move to the position where it is in contact with the flat surface on the selected one Is the total radial movement of the probe.

If the measuring device described in the introduction preferably has a device to measure the output variable of the button on a coordinate paper, then effect the further settings at the output of the Button that the recording spring is moved to a certain position. The representation on the recording paper leaves easily recognize the minimum in the value of the button output signal for the operator, so that the position of the Button can then be selected so that this minimum is on a certain selected point of the recording strip lies.

The invention also includes a method by which the actual mean radius of a specimen whose nominal radius is known can be determined using of a measuring instrument of the type described above, first of all, the radial distance between the probe and the above is set to the nominal radius, then the reference body is replaced by the test object the button is placed on the device under test and the difference between the value of the output signal of the button, during the transition from the selected value

_ c

6 0 9809/0382

determines what an ad for the actual fourth of the radius of the test object.

Instead of an exact centering of the reference body, it can only be roughly centered, if it is an electronic one Computer is used to determine the radius from the least squares of the reference circle from the output signal of the probe is calculated if the probe is guided around the roughly centered reference body. This information is then saved and used to move the V.'archic table added or subtracted from the radial adjustment of the probe. Such computer circuits can be found, for example, in British patent application 36725/74.

In order to directly observe the displacement of the button output and thus determine the pivot point, you can electronic probes or the like can be used. Circuit arrangements of this type can also be those mentioned above British patent application.

The invention will now be based on exemplary embodiments in conjunction with the representations of the drawings be described again. Show it:

Fig. 1: a plan view of a known measuring instrument for determining the roundness:

FIG. 2: a side view of the instrument from FIG. 1 with a differently designed pushbutton carrier; FIG.

Fig. 3: a schematic drawing on which the sequence of the invention Method shown using reference bodies with a semi-cylindrical shape will;

Fig. 4: a. Schematic drawing to illustrate the process of the procedure when using fully cylindrical reference bodies.

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In the pig. 1 shows a measuring device for measuring the roundness of bodies, which has a bed (1) which carries a turntable ^ (2 a), on which a table (2b) is attached, which is adjustable in the x-j coordinate direction . The table (2b) carries a not specifically shown expenditure direction for V / Erkstücke (4 or 5) in Figures 1 and 2. The turntable (2a) can be rotated about the axis (AA), which the Represents the reference axis of the measuring device, and the table (2 a) is adjustable over a limited distance in two mutually perpendicular directions with the aid of rotary knobs (14 a and 15 a). The table, which is adjustable in the x-y coordinate direction, can be moved over a larger area, its movement then being readable by suitable linear measuring display devices (not shown), the adjustment knobs (14 b and 15 b) being used for adjustment.

In addition, a vertical column (3) rises on the bed (1), which is vertically adjustable with a slide (12) carries, on which a substantially horizontally extending button support arm (8) sits with a clamp (7) on his free end from which a button (6) with wand tip (11) sticks out. The clamp (7) can be adjusted in one of two directions so that the button (6) is either horizontal like in Pig. 1 or vertical as in Figl 2. The arrangement according to FIG. 1 is preferably for the scanning of external surfaces cylindrical body, the arrangement according to FIG. 2, preferably for measuring and scanning inner surfaces of hollow cylinders Body suitable.

To carry out the method according to the invention, a reference body of semi-cylindrical shape (16) is now on the coordinate table (2 b) is placed, and the tip of the stylus (11) of the feeler (6) is placed on the curved surface of the reference body. The table is then rotated around the reference axis (A-A) rotated, and with the help of the adjusting knobs (14 a, 15 a) adjustments are made to the reference body with respect to the Center axis (A-A), i.e. adjust its lateral position in the plane of the table (2) until the initial value of the button (6) remains constant or at least, in / practically possible

Dimensions remain almost constant ". If the button output is on a Register strip is shown with linear graduation, results he in this case a mirade, when depicted on PoIa ^ - coordinates should be a perfect semicircle concentric to one of the pre-printed on the recording paper Circles. Is the reference body then to the reference axis (A-A) centered, two steps can be carried out to continue the process. These two steps are in the figures 3 and 4 shown. In Fig. 3, the wand tip (11) from its initial position in which it is curved at the Surface of the reference body (16) rests, moved out, and the reference body (16) is on a straight path by pressing of the adjusting knob (14 b) also shifted in a radial direction with respect to the reference axis of the measuring device. the required adjustment of the adjusting mechanism by means of the rotary knob (14 b) is recorded (start and end positions), and the wand tip (11) is aligned with the flat surface of the reference body (16) brought into contact.

The table (2a) is then pivoted over a limited area on either side of the central position moved, whereby the output signals of the button (6) are recorded. When the wand tip (11) reaches the point in the flat Crossing the surface of the reference body (16) in which the center of curvature of the curved surface lies, the output signal is reached a turning point. If the body as shown in Fig. 3 is shown by a dashed line Position has been moved to the fully extended position, the button (11) generates the lowest possible turning point, because the body is only touched in this central position. The radial position of the button (6) is set until the turning point by relative angular rotation over a certain area at a certain register strip position is determined (when using a reference body of semi-cylindrical shape, the only requirement is for Centering on the curved surface that the output signal is practically constant. It is not required for that Output of the recording device to determine a certain position on the recording strip.) The reference body is then without changing the setting of the radial position of the

6Q9809 / Ü382

Button (6) or the electrical setting of the button output, if there is one, it is removed and a test item is placed on the table (2), which is then known V / is centered. Since the radial distance of the probe from the reference axis (A-A) is fixed, centering must also be carried out Using the adjustment knobs (14 a and 15 a) of the turntable (2 a) take place until the output of the button (6) is essentially is constant and lies on the selected register strip position that is used when adjusting to the reference body was with the reference body during the entire advance of the probe.

The method described is suitable for setting the measuring device for measuring inner radii. To the To determine the radius of a convex body it is only necessary to move the reference body in the opposite direction to adjust as Fig. 3. The output signal of the button (6) is under these conditions then a turning point in the generate opposite direction.

It is also possible to use a cylindrical reference body instead of the semi-cylindrical reference body use in essentially the same procedure. This has advantages in that cylindrical reference bodies can be produced more easily can be used as a reference body with semi-cylindrical-r Shape. Fig. 4 shows that the reference body initially on the axis (A-A) with the help of the stylus tip (11) of the The button (6) is centered on its surface and then moved by the distance (R) that corresponds to the required setting corresponds, taking into account ^ the diameter of the reference body, and the wand tip then becomes set again against the surface of the reference body so that further settings can be made on the button, so that the position of the pen on the recording strip at the turning point is the same as it is when centering of the reference body was. This ensures that the button has been moved exactly the same distance as the

609809/0382

Work table, so that the displacement of the probe can be determined with the same accuracy as that of the work table.

Carrying out the method with a reference body of semi-cylindrical shape has the advantage that it does not it is necessary to know the radius of the reference body; there is only the geometrical requirement that the curved surface is sufficient exact. is and the axis of curvature is in the plane Area is located.

609809/0382

Claims (8)

25353A7 Claims Iy) Method for setting the feeler of a precision measuring device that determines the diameter of objects to a selected radius setting, gekennzeich.net through the following step sequence: A reference measuring body with a cylindrical or partially cylindrical surface is placed on the clamping table of the measuring device arranged; the reference measuring body is set on the clamping table by sweeping over the curved surface with the probe in the V / eise centers that the position of the work table as long as is adjusted until the output variable of the pushbutton pi-actically constantly maintains a certain V / ert; the The carriage of the clamping table is moved with the reference body by a certain distance; the radial position of the button is adjusted so that it touches the surface of the Reference body just touched; the reference body or the button v / ground pivoted back and forth over a limited Area with which a relative angular position of the button to the reference body with respect to a turning point of the button output signal is obtained; the radial position of the button is changed with continued reciprocating relative movement between the button and the reference body set in such a way that the value of the button output signal at the point of inflection is determined Amount. 2.) The method · according to claim 1, characterized in that the certain amount of the Button output signal at the turning point is the fixed value of the button output when centering the reference body. 3.) The procedure according to claim 1 or 2, d a d u r c h / g e indicates that the output signal of the button is mapped on a recording strip and the further setting to the radial position of the button - 11 - 609809/0382 by moving the imaging line on the register strip to the selected position on the register strip. 4.) Method according to one of claims 1 to 3, characterized in that the reference body has a semi-cylindrical surface and the setting the radial position is carried out by bringing the button into contact with the flat surface of the reference body. 5.) The method according to claim 1 or 2, characterized in that the reference body is a Halbzylin'drische Has surface and the adjustment of its radial position is carried out so that the button is in contact is brought to the curved surface of the reference body. (?.) Method according to one of the preceding claims, characterized in that instead of precise centering of the reference body, the output signal of the button is input to a computer which calculates the radius of the reference circle of least squares and uses this value for the determination saves the total displacement of the button. 7.) A method for determining the exact radius of a test object, the nominal radius of which is known, with the help of a button using Keßeinrichtung, characterized in that the radial position of the button takes place on the nominal radius according to one of claims 1 to 6, the test object instead of the reference body is used, the probe is brought into contact with the device under test and the difference in the output signal of the probe while the device under test is being scanned is determined by the preselected Mext, whereby an indication of the mean value of the radius of the device under test is obtained. 8.) The method according to claim 7, characterized in that the button output signal on a register strip provided with a grid during - 12 609809 / Ü382 the scanning of the surface of the test object is imaged. 6 0 9809/0382